RU2013909C1 - Cultivator - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: cultivator has cross beam 1 carrying parallel link sections 2 each of which rests on wheel finder 3 and has replaceable working members. The latters include sweeps of two standard sizes 4 and 5 differing in operating width and in additional harrows with controlled operating width as well as weed rotary hoes and others. Arrangement of working members for presowing cultivation provides mounting of sweeps 4 having large operating width in two rows and harrows 6 behind sweeps. Sweeps 4 and 5 are made of flat sweeping type with out shank, with crumbling angle being 15 deg. Ratio of operating width of sweeps 4 and is 1.8-2.0. Each set of working members has equal number of sweeps 4 and 5. EFFECT: enlarged operating capabilities. 3 cl, 31 dwg

Description

 The invention relates to agricultural machinery, in particular to row cultivators.

 Known cultivator okuchnik KON-2,8A, containing a transverse beam with parallelogram sections, supported by a copying wheel and carrying interchangeable working bodies. A set of interchangeable working bodies with the help of which operations are carried out for cultivating row crops contains a lancet paw used in weed cutting operations with simultaneous cultivation [1].

 The disadvantage of this cultivator is the limited scope for tillage on planting potatoes with a row spacing of 70 cm.

 Also known is a cultivator-plant feeder KPH-5,6A with adjustable transverse distance between sections. The set of interchangeable working bodies of the cultivator includes universal lancet paws of two sizes with a working width of 220 and 270 mm, the number of 16 and 9 pcs., Respectively [2]. This somewhat expands the functionality of the cultivator used for inter-row cultivation and top dressing of corn, sunflower, and other highly cultivated row crops with 60, 70, 90 cm row-spacings (p. 3 - appendix).

 The disadvantage of this cultivator is the use of two types of working bodies when setting up for continuous tillage - lancet paws with a gripper of 270 mm and one-sided razor paws (p. 47, Fig. 32 - appendix). The main purpose of razor paws is to cut weeds, therefore, during pre-sowing preparation, they do not crush the soil enough and, moreover, wear out quickly. To ensure the required overlap between adjacent working bodies, the left and right razors are installed on the sections with longitudinal displacement (Fig. 32 - application). This causes a shift in the point of application of the resultant soil resistance forces back from the attachment point of the section to the transverse beam and, accordingly, increases the torque and bending moments in the hinges of the parallelogram section. As a result of increased loads, intensive wear of the seats of the hinged supports occurs, the section "loosens", which impairs the stability of the working bodies during inter-row treatments and, as a result, causes damage to cultivated plants in rows.

 Elimination of this drawback by mechanical inclusion in the set of additional lancet paws of the following sizes provided by GOST 1343-82 "Paws and tines of cultivators" with a working width of 290, 330 mm, leads to an increase in material consumption, complicating the production and packaging of cultivators. In conditions of actual operation in farms, additional working bodies are used to equip other cultivators as spare parts.

 The aim of the invention is the expansion of functionality, improving the reliability of the design and the quality of the soil treatment.

This goal is achieved by the fact that in a cultivator containing a transverse beam with parallelogram sections installed with the possibility of adjusting the transverse distance, each of which is supported by a copying wheel and carries interchangeable working bodies, including lancet legs of two sizes with different working widths, the new is that both paws lancet ploskorezhuschimi formed with an angle of ^about 15 crumbling, the ratio of widths greater to lesser paw is 1.8-2.0, and the number of paw smaller and larger capture complexes e same.

 Additionally, behind the paws are mounted harrows with an adjustable variable grip width. In addition, sections are installed on a beam with a variable transverse distance.

 The introduction into the set of interchangeable working bodies of the same number of plane-cutting paws of a smaller and larger working width with a grip ratio of a larger paw to a smaller 1.8-2.0 allows you to expand the functionality of the cultivator and use it with various combinations of working bodies on different sowing schemes. In addition, the functionality can be increased by introducing into the design harrows with an adjustable variable grip width and installing sections on a beam with a variable transverse distance. Due to the use of a larger grip on the pre-sowing preparation of paws and the exclusion of razor paws in this operation, the quality of crumbling is increased, the possibility of clogging the space between the racks of the paws is eliminated. At the same time, the reliability of the structure is increased by reducing the loads on the hinge joints of the parallelogram and increasing the service life of the hinge supports. The equipment and organization of production of the cultivator is simplified due to the unification of the legs and racks with which they are attached to the section. The consumption of steel sheet is reduced due to the rational cutting of blanks.

 In FIG. 1 shows a cultivator, a general side view; in FIG. 2 - arrangement of working bodies for pre-emergence tillage with aisles of 50 + 90 cm; in FIG. 3 - arrangement of working bodies for pre-sowing tillage; in FIG. 4 - the design of plane-cutting paws; in FIG. Figures 5-31 show (for reference) the arrangement of interchangeable working bodies, incl. lancet paws of two sizes to perform operations to care for vegetables sown according to the schemes adopted in different zones of the country.

The cultivator (see Fig. 1) contains a transverse beam 1, carrying parallelogram sections 2, each of which is supported by a copying wheel 3 and carries interchangeable working bodies (see Fig. 2), including lancet legs of two sizes 4 and 5, differing in width capture, and additionally, harrows 6 with an adjustable width, as well as weeding rotors 7 and others (see Fig. 5-31). The arrangement of the working bodies for pre-sowing treatment (see figure 3) provides for the installation of paws 4 larger grip in 2 rows and 6 harrows located behind the paws. Paw 4 and 5 (sm.fig.4) ploskorezhuschimi performed without crumbling shank angle 15 ^o. The ratio of the width of the gripping paws 4 and 5 is 1.8-2.0. The width of the gripping legs 4 in figure 4 is 400 mm, legs 5 - 220 mm The number of paws 4 and 5 included in the set of working bodies is the same. For the cultivator embodiment shown in FIGS. 1-31, the number of paws is 4, 5 for 12 pieces. both sizes. In FIG. 5-31 show the arrangement of working bodies for the following operations: FIG. 5 - pre-sowing tillage, pos. 8 — press-on rotor; 6 is a pre-emergence treatment with row spacing of 60 and 70 cm; Fig.7 - pre-emergence processing with aisles of 45 cm; Fig - pre-emergence processing with row spacing 60 + 120 cm; Fig.9 - the first inter-row processing with row spacing of 60 and 70 cm; Pos. 9 - disk; figure 10 - the first inter-row processing with spacing 50 + 90 cm; 11 - the first inter-row processing with row spacing of 45 cm; Fig - the first inter-row processing with spacing 50 + 110 cm; Fig - the first inter-row processing with row spacing of 90 cm; Fig - the first inter-row processing with row spacing 60 + 120 cm; FIG. 15 - subsequent inter-row treatments with a row spacing of 45 cm; Fig - subsequent inter-row processing with a row spacing of 60 and 70 cm; FIG. 17 - subsequent inter-row treatments with a row spacing of 50 + 90 cm; Fig. 18 - subsequent inter-row treatments with an inter-space distance of 50 + 110 cm; Fig - subsequent inter-row processing with a row spacing of 90 cm; Fig.20 - subsequent inter-row processing with a row spacing of 60 + 120 cm; Fig.21 - hilling plants with aisles of 60 and 70 cm; Fig.22 - hilling plants with aisles of 50 + 90 cm; Fig.23 - hilling plants with aisles of 45 cm; Fig.24 - hilling of plants with aisles of 50 + 110 cm; Pos.10 - paw loosening chisel; Fig.25 - hilling plants with aisle of 90 cm; Fig.26 - hilling of plants with aisle 60 + 120 cm; Fig.27 - feeding plants with aisles of 60 and 70 cm; pos.11 - feeding device, pos.12 - paw with a tube; Fig.28 - feeding plants with aisles of 50 + 90 cm; Fig.29 - feeding plants with aisles of 50 + 110 cm; FIG. 30 - top dressing of plants with row spacing of 90 cm; Fig - feeding plants with row spacing 60 + 120 cm

 The technological process performed by the cultivator is as follows. The cultivator connected to the tractor (dotted in FIGS. 2,3,5-31) is moved to the working position in which the copy wheels 3 serve as supporting elements for the pointed arms 4 and 5. The paws loosen the soil for a given depth and crop weeds. In combination of lancet paws 4, 5 with harrows of various types, pre-emergence and first inter-row treatments are performed (see Fig. 6-14); with disks - inter-row processing and hilling of plants (see Fig. 9-26); with fertilizing devices and cultivating paws of plant nutrition (see Fig. 27-31).

Lancet legs 4, 5 (sm.fig.4) ploskorezhuschimi performed without shank, with a reduced angle crumbling β = ¹⁵ ° (according to GOST 1343-82 ^on β = 18 for type 2).

 The grip of the larger paw 4 is increased to 400 mm (according to GOST 1343-82, a maximum grip width of 290 mm for type 2 paws is provided). This allows you to use it for continuous tillage (see Fig. 3.5) to a sowing depth of 3-5 cm, ensuring the complete destruction of weeds and an even, finely lumpy field topography, as well as in row cultivations to a depth of 8 cm in combination with paws 5 (see figure 2) or other replaceable working bodies.

 Optimization of the width of the paws, their number, and, in addition, the introduction of the harrow with an adjustable variable width and the possibility of installing sections on the beam with a variable transverse distance increases the versatility of the cultivator.

 At present, the Gryazinsky cultivating plant is preparing the production of the KOR-4,2A cultivator-plant feeder, in the construction of which the proposed device is implemented.

Claims (3)

1. CULTIVATOR containing a transverse beam with parallelogram sections mounted on it with the ability to adjust the pitch, each of which has a copying wheel and interchangeable working bodies made in the form of lancet paws of two standard sizes with different working widths, characterized in that lancet paws with different widths the grippers are made flat-cut with a crushing angle of 15 ^o , while the ratio of the width of the grip of the larger paws to the smaller is 1.8 - 2.0, and the number of paws of the larger and smaller grips is the same.  2. The cultivator according to claim 1, characterized in that the harrows with an adjustable variable working width are installed behind the paws.  3. The cultivator according to claim 1, characterized in that the sections are mounted on a timber with a variable pitch.

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